SIMBAD references

The deep, wide-area (∼800-900 arcmin²) near-infrared/WFC3/IR + Spitzer/IRAC observations over the CANDELS fields have been a remarkable resource for constraining the bright end of high-redshift UV luminosity functions. However, the lack of Hubble Space Telescope (HST) 1.05 µm observations over the CANDELS fields has made it difficult to identify z ∼ 9-10 sources robustly, since such data are needed to confirm the presence of an abrupt Lyman break at 1.2 µm. Here, we report on the successful identification of many such z ∼ 9-10 sources from a new HST program (z9-CANDELS) that targets the highest-probability z ∼ 9-10 galaxy candidates with observations at 1.05 µm, to search for a robust Lyman-break at 1.2 µm. The potential z ∼ 9-10 candidates were preselected from the full HST, Spitzer/IRAC S-CANDELS observations, and the deepest-available ground-based optical+near-infrared observations (CFHTLS-DEEP+HUGS+UltraVISTA+ZFOURGE). We identified 15 credible z ∼ 9-10 galaxies over the CANDELS fields. Nine of these galaxies lie at z ∼ 9 and five are new identifications. Our targeted follow-up strategy has proven to be very efficient in making use of scarce HST time to secure a reliable sample of z ∼ 9-10 galaxies. Through extensive simulations, we replicate the selection process for our sample (both the preselection and follow-up) and use it to improve current estimates for the volume density of bright z ∼ 9 and z ∼ 10 galaxies. The volume densities we find are 5_–2⁺³×and 8_–3⁺⁹×lower, respectively, than those found at z ∼ 8. When compared with the best-fit evolution (i.e., d log₁₀ ρ_UV/dz=-0.29±0.02) in the UV luminosity densities from z ∼ 8 to z ∼ 4 integrated to 0.3L_z=3^* (-20 mag), these luminosity densities are 2.6_–0.9^+1.5×and 2.2_–1.1^+2.0×lower, respectively, than the extrapolated trends. Our new results are broadly consistent with the "accelerated evolution" scenario at z > 8, consistent with that seen in many models.